Dr. Zuoti Xie received Ph.D. from Fudan University in China, studying the charge transfer at the molecule/metal interfaces of organic light-emitting devices. From 2009 to 2011, he joined Dr. Ron Naaman’s group at Weizmann Institute of Science, where he studied the electronic structure of the semiconductor quantum dot assemblies on metallic substrates and the spin selective transport through DNA. Before joining GTIIT in 2020, he has been working with Dr. C. Daniel Frisbie at the University of Minnesota, studying the structure related charge transport mechanism of the Metal-Molecule-Metal junction. His research outcomes have been published in several top journals: Journal of the American Chemical Society, ACS Nano, Nano Letters, Chemical Sciences, The Journal of Physical Chemistry Letters, et. al.

At GTIIT, Dr. Xie’s group centers their work on molecular electronics, particularly on the impact of the molecular structures, the nature of the electrode-molecule contacts and external conditions on the charge transport properties and the electronic structures of molecular junctions. The goal of their research is to provide insights on molecular device physics to achieve device optimization and obtain desired electrical behaviors.

Professor Xie’s research group website

• The transport properties of materials in the molecular scale
• Relationship between charge transport properties and electronic structures of molecular junctions
• Spin transport in molecular junctions
• Electronic properties organic thin film and crystals2
• Bioelectronics, electronic detection of nucleic acids

Papers

Ioan Bâldea, Yuhong Chen, Miao Zhang, Na Xin, Yunxia Feng, Jiajun Feng, Chuancheng Jia, Xuefeng Guo*, Zuoti Xie*, Breakdown of Ohm’s Law in Molecular Junctions with Electrodes of Single-Layer Graphene, The Journal of Physical Chemistry Letters (2024)

Zuoti Xie, Ioan Bâldea, and C. Daniel Frisbie, Energy Level Alignment in Molecular Tunnel Junctions by Transport and Spectroscopy: Self-Consistency for the Case of Alkyl Thiols and Dithiols on Ag, Au, and Pt Electrodes. Journal of the American Chemical Society 141, 18182-18192 (2019).

Zuoti Xie, Ioan Bâldea, and C. Daniel Frisbie, Determination of Energy Level Alignment in Molecular Tunnel Junctions by Transport and Spectroscopy: Self-Consistency for the Case of Oligophenylene Thiols and Dithiols on Ag, Au, and Pt Electrodes. Journal of the American Chemical Society 141, 3670-3681 (2019).

Zuoti Xie, Ioan Bâldea, Greg Haugstad, and C. Daniel Frisbie, Mechanical Deformation Distinguishes Tunneling Pathways in Molecular Junctions. Journal of the American Chemical Society 141, 497-504 (2019).

Zuoti Xie, Ioan Bâldea, and C. Daniel Frisbie, Why One Can Expect Large Rectification in Molecular Junctions Based on Alkane Monothiols and Why Rectification Is So Modest. Chemical Science 9, 4456-4467 (2018).

Zuoti Xie, Ioan Bâldea, Abel T. Demissie, Christopher E. Smith, Yanfei Wu, Greg Haugstad, and C. Daniel Frisbie, Exceptionally Small Statistical Variations in the Transport Properties of Metal-Molecule-Metal Junctions Composed of 80 Oligophenylene Dithiol Molecules. Journal of the American Chemical Society 139, 5696-5699 (2017).

Zuoti Xie, Ioan Bâldea, Stuart Oram, Christopher E. Smith, Yanfei Wu, and C. Daniel Frisbie, Effect of Heteroatom Substitution on Electronic Coupling in Alkane Dithiol Based Molecular Junctions. ACS Nano 11, 569-578 (2017).

Zuoti Xie, Sha Shi, Feilong Liu, Darryl L. Smith, P. Paul Ruden, and C. Daniel Frisbie, Large Magnetoresistance at Room Temperature in Organic Molecular Tunnel Junctions with Non-Magnetic Electrodes.  ACS Nano 10, 8571-8577 (2016).

Zuoti Xie, Ioan Bâldea, Christopher Smith, Yanfei Wu, and C. Daniel Frisbie, Experimental and Theoretical Analysis of Charge Transport in Oligophenylene Dithiol Junctions as a Function of Molecular Length and Contact Work Function. ACS Nano 9, 8022-8036 (2015).

Zuoti Xie, Tal Z. Markus, Sidney R. Cohen, Zeev Vager, Rafael Gutierrez, and Ron Naaman, Spin Specific Electron Conduction Through DNA Oligomers. Nano Letters 11, 4652-4655 (2011).